You are here

Space Materials and Technologies

Ceramic fuel cells for space vehicles

¹Lugovy MI, ²Slyunyayev VM, ²Brodnikovskyi Ye.M, ²Brychevskyi M, ²Brodnikovskyi MP, ²Vasil'ev AD, ³Steinberger-Wilckens R. Ceramic fuel cells for space vehicles. Kosm. nauka tehnol. 2009 ;15(2):05-15.

Contact thermal resistance of capillary structures of heat pipes in heat-exchange systems of spacecrafts and helioenergetics

¹Kostornov AG, ¹Shapoval AA, ²Frolov GA, ³Shapoval IV. Contact thermal resistance of capillary structures of heat pipes in heat-exchange systems of spacecrafts and helioenergetics. Kosm. nauka tehnol. 2009 ;15(1):75-79.

Modification of Glaser project. New thermal cycle for orbital solar electric power station

¹Ludanov KI. Modification of Glaser project. New thermal cycle for orbital solar electric power station. Kosm. nauka tehnol. 2009 ;15(1):62-67.

Interaction of supersonic heterogeneous streams with solid body surface

¹Polezhaev Yu.V, ¹Mikhatulin DS, ²Frolov GA. Interaction of supersonic heterogeneous streams with solid body surface. Kosm. nauka tehnol. 2010 ;16(6):57-63.

High-temperature heat insulation material on the basis of ceramic fibers

¹Gusarova IA. High-temperature heat insulation material on the basis of ceramic fibers. Space Science and Technology. 2017 ;23(2):24-31.

The mechanism of spraying of paraffin-based fuel by using of plasma transferred arc

¹Bulavin LA, ¹Chernyak VYa., ¹Vergun LYu., ¹Zabashta Yu.F, ²Orlovskaya SG, ¹Nedibalyuk OA, ¹Solomenko ОV. The mechanism of spraying of paraffin-based fuel by using of plasma transferred arc. Kosm. nauka tehnol. 2017 ;23(1):30-35.

The fluid surface shape and capillary phenomena under lowered gravity or weightlessness with application to space materials science (powder metallurgy technology: impregnation, liquid-phase sintering; welding, brazing)

¹Naidich Yu.V, ¹Gab II, ²Evdokimov VA, ²Kurkova DI, ¹Stetsyuk TV, ²Grigorenko NF, ²Chemigovtsev EP, ²Zhuravlev VS, ²Krasovsky VP. The fluid surface shape and capillary phenomena under lowered gravity or weightlessness with application to space materials science (powder metallurgy technology: impregnation, liquid-phase sintering; welding, brazing). Kosm. nauka tehnol. 2004 ;10(2-3):059-067.

«Technology» Experiment New capabilities of growing semi-conductor materials by the method of electron beam crucibleless zone melting under microgravity

¹Paton ВЕ, ¹Asnis Yu.A, ¹Zabolotin SP, ²Baranskii PI, ²Babich VM. «Technology» Experiment New capabilities of growing semi-conductor materials by the method of electron beam crucibleless zone melting under microgravity. Kosm. nauka tehnol. 2000 ;6(4):140-141.

«Brazing» Experiment Capillary properties of metal melts, non-metal materials and processes of wetting and brazing under microgravity

¹Najdich Yu.V, ²Gab II, ¹Zhuravlev VS. «Brazing» Experiment Capillary properties of metal melts, non-metal materials and processes of wetting and brazing under microgravity. Kosm. nauka tehnol. 2000 ;6(4):139-140.

Electron beam zone melting of ni-base eutectic

¹Barabash ОМ, ¹Nemoshkalenko VV. Electron beam zone melting of ni-base eutectic. Kosm. nauka tehnol. 2000 ;6(4):138-139.

Pages